PROGRAM LA_DPOSVX_ET_EXAMPLE ! ! -- LAPACK95 interface driver routine (version 3.0) -- ! UNI-C, Denmark; Univ. of Tennessee, USA; NAG Ltd., UK ! September, 2000 ! ! .. USE STATEMENTS USE LA_PRECISION, ONLY: WP => DP USE F95_LAPACK, ONLY: LA_POSVX ! .. IMPLICIT STATEMENT .. IMPLICIT NONE ! .. PARAMETERS .. CHARACTER(LEN=*), PARAMETER :: FMT = '(8(1X,F10.3))' INTEGER, PARAMETER :: NIN=5, NOUT=6 ! .. LOCAL SCALARS .. INTEGER :: I, J, INFO, N, NRHS REAL(WP) :: RCOND ! .. LOCAL ARRAYS .. INTEGER, ALLOCATABLE :: IPIV(:) REAL(WP), ALLOCATABLE :: A(:,:), B(:,:), X(:,:) REAL(WP), ALLOCATABLE :: AA(:,:), BB(:,:) ! .. EXECUTABLE STATEMENTS .. WRITE (NOUT,*) 'DPOSVX ET_Example Program Results.' READ ( NIN, * ) ! SKIP HEADING IN DATA FILE READ ( NIN, * ) N, NRHS PRINT *, 'N = ', N, ' NRHS = ', NRHS ALLOCATE ( A(N,N), AA(N,N), B(N,NRHS), BB(N,NRHS), X(N,NRHS), IPIV(N) ) ! AA = HUGE(1.0_WP) DO I = 1, N READ (NIN, *) AA(I, I:N) ENDDO DO J = 1, NRHS DO I = 1, N BB(I,J) = ( SUM( AA(I,I:N) ) + SUM( AA(1:I-1,I) ) )*J ENDDO ENDDO A=AA; B=BB WRITE(NOUT,*) 'The matrix A:' DO I = 1, N WRITE (NOUT,*) 'I = ', I; WRITE (NOUT,FMT) A(I,:) ENDDO WRITE(NOUT,*) 'The RHS matrix B:' DO J = 1, NRHS WRITE (NOUT,*) 'RHS', J; WRITE (NOUT,FMT) B(:,J) ENDDO ! WRITE ( NOUT, * )'---------------------------------------------------------' WRITE ( NOUT, * ) WRITE ( NOUT, * )'Details of LA_DPOSVX LAPACK Subroutine Results.' WRITE ( NOUT, * ) ! WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX( A, B, X, INFO=INFO )' A=AA; B=BB CALL LA_POSVX( A, B, X, INFO=INFO ) WRITE(NOUT,*)' X - the solution vectors computed by LA_POSVX, INFO = ', INFO DO J = 1, NRHS; WRITE (NOUT,FMT) X(:,J); END DO WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX( A, B(1:N,1), X(1:N,1), RCOND=RCOND, INFO=INFO )' A=AA; B=BB CALL LA_POSVX( A, B(1:N,1), X(1:N,1), RCOND=RCOND, INFO=INFO ) WRITE(NOUT,*)' X - the solution vectors computed by LA_POSVX, INFO = ', INFO WRITE (NOUT,FMT) X(:,1) WRITE(NOUT,*) 'RCOND = ', RCOND ! WRITE(NOUT,*)' X - the solution vectors computed by LA_POSVX:' WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX( A, B, X )' A=AA; B=BB CALL LA_POSVX( A, B, X ) WRITE(NOUT,*)' X - the solution vectors computed by LA_POSVX:' DO J = 1, NRHS; WRITE (NOUT,FMT) X(:,J); END DO WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX(A, B(1:N,1), X(1:N,1) )' A=AA; B=BB CALL LA_POSVX(A, B(1:N,1), X(1:N,1) ) WRITE(NOUT,*)' X - the solution vectors computed by LA_POSVX:' WRITE (NOUT,FMT) X(:,1) ! WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX(A, B, X, ''L'', RCOND=RCOND)' A=TRANSPOSE(AA); B=BB CALL LA_POSVX( A, B, X, 'L', RCOND=RCOND) WRITE(NOUT,*)' X - the solution vectors computed by LA_POSVX:' DO J = 1, NRHS; WRITE (NOUT,FMT) X(:,J); END DO WRITE(NOUT,*) 'RCOND = ', RCOND WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX( A, B(1:N,1), X(1:N,1), ''L'', RCOND=RCOND )' A=TRANSPOSE(AA); B=BB CALL LA_POSVX( A, B(1:N,1), X(1:N,1), 'L', RCOND=RCOND ) WRITE(NOUT,*)' X - the solution vectors computed by LA_POSVX:' WRITE (NOUT,FMT) X(1:N,1) WRITE(NOUT,*) 'RCOND = ', RCOND ! WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX(A(:,:), B(1:N-1,:), X, INFO =INFO )' A=AA; B=BB; X=HUGE(1.0_WP) CALL LA_POSVX( A(:,:), B(1:N-1,:), X, INFO=INFO) WRITE(NOUT,*)' INFO = ', INFO WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX( A(4:4), B(1:N,1), X(1:N,1), INFO=INFO )' A=AA; B=BB; X=HUGE(1.0_WP) CALL LA_POSVX( A(4:4,:), B(1:N,1), X(1:N,1), INFO=INFO ) WRITE(NOUT,*)' B - the RHS vector.' WRITE (NOUT,FMT) B(1:N,1) WRITE(NOUT,*)' INFO = ', INFO ! WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX(A, B, X, FACT=''F'', INFO =INFO )' A=AA; B=BB; X=HUGE(1.0_WP) CALL LA_POSVX( A, B, X, FACT='F', INFO=INFO) WRITE(NOUT,*)' INFO = ', INFO WRITE(NOUT,*) WRITE(NOUT,*) 'CALL LA_POSVX( A, B(1:N,1), X(1:N,1), FACT=''4'', INFO=INFO )' A=AA; B=BB; X=HUGE(1.0_WP) CALL LA_POSVX( A, B(1:N,1), X(1:N,1), FACT='4', INFO=INFO ) WRITE(NOUT,*)' INFO = ', INFO ! END PROGRAM LA_DPOSVX_ET_EXAMPLE